Mediation of the association between vascular risk factors and depressive symptoms by c-reactive protein: Longitudinal evidence from the UK Biobank

People with vascular risk factors (VRFs) are at higher risk for depressive symptoms. Given recent findings implicating low-grade systemic inflammation in both vascular and mental health, this study examined the extent to which the VRF–depressive symptom association might be mediated by low-grade systemic inflammation. To this end, we analysed longitudinal data of 9,034 participants from the UK Biobank (mean age = 56.54 years), who took part in three consecutive assessments over the course of about 8 years. Cumulative VRF burden at baseline was defined as the presence of 5 VRFs (hypertension, obesity, hypercholesterolemia, diabetes, and smoking). Low-grade systemic inflammation was assessed using serum-derived C-reactive protein (CRP) and depressive symptoms were measured using the Patient Health Questionnaire-9 (PHQ-9). We performed mediation models using longitudinal data and a path analytic framework, while controlling for age, gender, racial-ethnic background, socioeconomic status, and baseline mood. VRFs at baseline showed a small association with higher depressive symptoms at follow-up (total effect = 0.014, 95% CI [0.007; 0.021]). CRP mediated this association (indirect effect = 0.003, 95% CI [0.001; 0.005]) and accounted for 20.10% of the total effect of VRF burden on depressive symptoms. Exploratory analyses taking a symptom-based approach revealed that mediating pathways pertained to specific depressive symptoms: tiredness and changes in appetite. These results suggest that the small association between VRF burden and depressive symptoms may be partly explained by the inflammation-promoting effects of VRFs, which might promote a specific symptom-profile of depression

Coniferous bark hot steam treatment for the elimination of the pinewood nematode

In order to develop an artificial heat treatment to eliminate the pinewood nematode (PWN), Bursaphelenchus xylophilus, from coniferous bark, an industrial equipment, based on hot steam was build up which enables continuous bark treatment for more than 30 min with temperatures above 80ºC. Biological assays were performed using experimental units (bags) with Pinus pinaster bark and wood chips containing more than 100 000 PWN (.60% third dispersal juvenile s tage). The bags were heat treated for 30 min and the temperature inside monitored by temperature probes. The total number of live nematodes was quantified immediately after treatment and after incubation (25ºC for 15 days) and in both situations no nematodes were detected revealing efficacy in eliminating PWN from coniferous bark

Morphological stability of rod-shaped continuous phases

Morphological transition of a rod-shaped phase into a string of spherical particles is commonly observed in the microstructures of alloys during solidification (Ratke and Mueller, 2006). This transition phenomenon can be explained by the classic Plateau-Rayleigh theory which was derived for fluid jets based on the surface area minimization principle. The quintessential work of Plateau-Rayleigh considers tiny perturbations (amplitude much less than the radius) to the continuous phase and for large amplitude perturbations, the breakup condition for the rod-shaped phase is still a knotty issue. Here, we present a concise thermodynamic model based on the surface area minimization principle as well as a non-linear stability analysis to generalize Plateau-Rayleigh’s criterion for finite amplitude perturbations. Our results demonstrate a breakup transition from a continuous phase via dispersed particles towards a uniform-radius cylinder, which has not been found previously, but is observed in our phase-field simulations. This new observation is attributed to a geometric constraint, which was overlooked in former studies. We anticipate that our results can provide further insights on microstructures with spherical particles and cylinder-shaped phases

Differential Regulation of the Period Genes in Striatal Regions following Cocaine Exposure

Several studies have suggested that disruptions in circadian rhythms contribute to the pathophysiology of multiple psychiatric diseases, including drug addiction. In fact, a number of the genes involved in the regulation of circadian rhythms are also involved in modulating the reward value for drugs of abuse, like cocaine. Thus, we wanted to determine the effects of chronic cocaine on the expression of several circadian genes in the Nucleus Accumbens (NAc) and Caudate Putamen (CP), regions of the brain known to be involved in the behavioral responses to drugs of abuse. Moreover, we wanted to explore the mechanism by which these genes are regulated following cocaine exposure. Here we find that after repeated cocaine exposure, expression of the Period (Per) genes and Neuronal PAS Domain Protein 2 (Npas2) are elevated, in a somewhat regionally selective fashion. Moreover, NPAS2 (but not CLOCK (Circadian Locomotor Output Cycles Kaput)) protein binding at Per gene promoters was enhanced following cocaine treatment. Mice lacking a functional Npas2 gene failed to exhibit any induction of Per gene expression after cocaine, suggesting that NPAS2 is necessary for this cocaine-induced regulation. Examination of Per gene and Npas2 expression over twenty-four hours identified changes in diurnal rhythmicity of these genes following chronic cocaine, which were regionally specific. Taken together, these studies point to selective disruptions in Per gene rhythmicity in striatial regions following chronic cocaine treatment, which are mediated primarily by NPAS2. © 2013 Falcon et al